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authorAdrian Kummerlaender2018-04-02 17:57:20 +0200
committerAdrian Kummerlaender2018-04-02 17:57:20 +0200
commitb17ca1d07d5726469e247e9326a56f8b2ee1644f (patch)
tree965d829cd5591d7eadb0386a06d572f667df3f5f /boltz.cc
parent79d97560ccebb3f90a580030c9f06b16e280f4ba (diff)
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Improve boundary cond impl via better vector support
Diffstat (limited to 'boltz.cc')
-rw-r--r--boltz.cc83
1 files changed, 48 insertions, 35 deletions
diff --git a/boltz.cc b/boltz.cc
index 21f5734..29f8518 100644
--- a/boltz.cc
+++ b/boltz.cc
@@ -13,9 +13,17 @@ struct DataCell {
return data[1+x][1-y];
}
+ inline double& get(Vector<int> v) {
+ return get(v[0], v[1]);
+ }
+
inline double get(int x, int y) const {
return data[1+x][1-y];
}
+
+ inline double get(Vector<int> v) const {
+ return get(v[0], v[1]);
+ }
};
using Velocity = Vector<double>;
@@ -72,16 +80,23 @@ class CellBuffer {
return curr_[y*dim_x_ + x];
}
+ inline Cell& curr(Vector<std::size_t> pos) {
+ return curr(pos[0], pos[1]);
+ }
+
inline Cell& prev(std::size_t x, std::size_t y) {
return prev_[y*dim_x_ + x];
}
+ inline Cell& prev(Vector<std::size_t> pos) {
+ return prev(pos[0], pos[1]);
+ }
};
constexpr std::size_t dimX = 128;
constexpr std::size_t dimY = 128;
-constexpr double lidVelocityX = 0.1;
+constexpr double lidVelocityX = 0.05;
constexpr double reynolds = 1000;
constexpr double nu = lidVelocityX * dimX / reynolds;
constexpr double tau = 3*nu + 0.5;
@@ -109,49 +124,53 @@ void computeFluidCell(std::size_t x, std::size_t y) {
std::pair<Vector<int>, Vector<int>> neighbors(Vector<int> v) {
if ( v[0] == 0 ) {
- return std::pair<Vector<int>, Vector<int>>{
+ return {
{ -1, v[1] },
{ 1, v[1] }
};
} else if ( v[1] == 0 ) {
- return std::pair<Vector<int>, Vector<int>>{
+ return {
{ v[0], -1 },
{ v[0], 1 }
};
} else {
- return std::pair<Vector<int>, Vector<int>>{
+ return {
{ 0, v[1] },
{ v[0], 0 }
};
}
}
-void computeWallCell(std::size_t x, std::size_t y, Vector<int> normal) {
+void computeWallCell(Vector<std::size_t> cell, Vector<int> normal) {
const auto [neighborA, neighborB] = neighbors(normal);
- pop.curr(x,y).get(neighborA[0], neighborA[1]) = pop.curr(x-neighborA[0], y-neighborA[1]).get(-neighborA[0], -neighborA[1]);
- pop.curr(x,y).get(normal[0] , normal[1] ) = pop.curr(x-normal[0] , y-normal[1] ).get(-normal[0] , -normal[1] );
- pop.curr(x,y).get(neighborB[0], neighborB[1]) = pop.curr(x-neighborB[0], y-neighborB[1]).get(-neighborB[0], -neighborB[1]);
+ pop.curr(cell).get(neighborA) = pop.curr(cell-neighborA).get(-neighborA);
+ pop.curr(cell).get(normal ) = pop.curr(cell-normal ).get(-normal );
+ pop.curr(cell).get(neighborB) = pop.curr(cell-neighborB).get(-neighborB);
}
-void computeHorizontalMovingWallCell(std::size_t x, std::size_t y, Vector<int> normal, double vX) {
+void computeSimpleVelocityWallCell(Vector<std::size_t> cell, Vector<int> normal, double vX) {
const auto [neighborA, neighborB] = neighbors(normal);
- const double rho = pop.curr(x-neighborA[0], y-neighborA[1]).get(-1,0) + pop.curr(x-normal[0],y-normal[1]).get(0,0) + pop.curr(x-neighborB[0], y-neighborB[1]).get(1,0)
+ pop.curr(cell).get(neighborA) = pop.curr(cell-neighborA).get(-neighborA) - 6 * weight.get( 1, 1) * density[cell[0]][cell[1]] * vX;
+ pop.curr(cell).get(normal ) = pop.curr(cell-normal ).get(-normal );
+ pop.curr(cell).get(neighborB) = pop.curr(cell-neighborB).get(-neighborB) + 6 * weight.get(-1, 1) * density[cell[0]][cell[0]] * vX;
+}
+
+void computeZouHeVelocityWallCell(Vector<std::size_t> cell, Vector<int> normal, double vX) {
+ const auto [neighborA, neighborB] = neighbors(normal);
+
+ const double rho = pop.curr(cell-neighborA).get(-1,0) + pop.curr(cell-normal).get(0,0) + pop.curr(cell-neighborB).get(1,0)
+ 2.*(
- pop.curr(x-neighborA[0], y-neighborA[1]).get(-neighborA[0], -neighborA[1]) +
- pop.curr(x-normal[0] , y-normal[1] ).get(-normal[0] , -normal[1] ) +
- pop.curr(x-neighborB[0], y-neighborB[1]).get(-neighborB[0], -neighborB[1])
+ pop.curr(cell-neighborA).get(-neighborA) +
+ pop.curr(cell-normal ).get(-normal ) +
+ pop.curr(cell-neighborB).get(-neighborB)
);
- const double hor = pop.curr(x-neighborA[0], y-neighborA[1]).get(-1,0) - pop.curr(x-neighborB[0], y-neighborB[1]).get(1,0);
-
- pop.curr(x,y).get(neighborA[0], neighborA[1]) = pop.curr(x-neighborA[0], y-neighborA[1]).get(-neighborA[0], -neighborA[1]) + 0.5*hor - 0.5*vX*rho;
- pop.curr(x,y).get(normal[0] , normal[1] ) = pop.curr(x-normal[0] , y-normal[1] ).get(-normal[0] , -normal[1] );
- pop.curr(x,y).get(neighborB[0], neighborB[1]) = pop.curr(x-neighborB[0], y-neighborB[1]).get(-neighborB[0], -neighborB[1]) - 0.5*hor + 0.5*vX*rho;
+ const double hor = pop.curr(cell-neighborA).get(-1,0) - pop.curr(cell-neighborB).get(1,0);
- //pop.curr(x,y).get(neighborA[0], neighborA[1]) = pop.curr(x-neighborA[0], y-neighborA[1]).get(-neighborA[0], -neighborA[1]) - 6 * weight.get( 1, 1) * density[x][y] * vX;
- //pop.curr(x,y).get(normal[0] , normal[1] ) = pop.curr(x-normal[0] , y-normal[1] ).get(-normal[0] , -normal[1] );
- //pop.curr(x,y).get(neighborB[0], neighborB[1]) = pop.curr(x-neighborB[0], y-neighborB[1]).get(-neighborB[0], -neighborB[1]) + 6 * weight.get(-1, 1) * density[x][y] * vX;
+ pop.curr(cell).get(neighborA) = pop.curr(cell-neighborA).get(-neighborA) + 0.5*hor - 0.5*vX*rho;
+ pop.curr(cell).get(normal ) = pop.curr(cell-normal ).get(-normal );
+ pop.curr(cell).get(neighborB) = pop.curr(cell-neighborB).get(-neighborB) - 0.5*hor + 0.5*vX*rho;
}
void computeLbmStep(std::size_t t) {
@@ -184,19 +203,19 @@ void computeLbmStep(std::size_t t) {
// straight wall cell bounce back
for ( std::size_t x = 2; x < dimX - 2; ++x ) {
- computeWallCell(x, 1, { 0, 1});
- computeHorizontalMovingWallCell(x, dimY-2, { 0,-1}, lidVelocityX);
+ computeWallCell({x, 1}, { 0, 1});
+ computeZouHeVelocityWallCell({x, dimY-2}, { 0,-1}, lidVelocityX);
}
for ( std::size_t y = 2; y < dimY - 2; ++y ) {
- computeWallCell(1, y, { 1, 0});
- computeWallCell(dimX-2, y, {-1, 0});
+ computeWallCell({1, y}, { 1, 0});
+ computeWallCell({dimX-2, y}, {-1, 0});
}
// edge wall cell bounce back
- computeWallCell(1, 1, { 1, 1});
- computeWallCell(1, dimY-2, { 1,-1});
- computeWallCell(dimX-2, 1, {-1, 1});
- computeWallCell(dimX-2, dimY-2, {-1,-1});
+ computeWallCell({1, 1 }, { 1, 1});
+ computeWallCell({1, dimY-2}, { 1,-1});
+ computeWallCell({dimX-2, 1 }, {-1, 1});
+ computeWallCell({dimX-2, dimY-2}, {-1,-1});
// update density, velocity field
for ( std::size_t x = 0; x < dimX; ++x ) {
@@ -218,12 +237,6 @@ void init() {
pop.prev(x,y).equilibrize(density[x][y], velocity[x][y]);
}
}
-
- /*for ( std::size_t y = 50; y < dimY-50; ++y ) {
- for ( std::size_t x = 50; x < dimX-50; ++x ) {
- density[x][y] = 2.0;
- }
- }*/
}
void writeCurrentStateAsVTK(int time) {